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libinput/test/test-path.c
Peter Hutterer ce80e40006 test: move all the _setup() functions into a special section 
This way we can loop through them instead of having to add them manually.

Signed-off-by: Peter Hutterer <peter.hutterer@who-t.net>
2018-03-23 10:17:52 +10:00

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/*
* Copyright © 2013 Red Hat, Inc.
*
* Permission is hereby granted, free of charge, to any person obtaining a
* copy of this software and associated documentation files (the "Software"),
* to deal in the Software without restriction, including without limitation
* the rights to use, copy, modify, merge, publish, distribute, sublicense,
* and/or sell copies of the Software, and to permit persons to whom the
* Software is furnished to do so, subject to the following conditions:
*
* The above copyright notice and this permission notice (including the next
* paragraph) shall be included in all copies or substantial portions of the
* Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
* THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
* FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER
* DEALINGS IN THE SOFTWARE.
*/
#include <config.h>
#include <check.h>
#include <errno.h>
#include <fcntl.h>
#include <libinput.h>
#include <stdio.h>
#include <sys/stat.h>
#include <unistd.h>
#include "litest.h"
#include "libinput-util.h"
struct counter {
int open_func_count;
int close_func_count;
};
static int
open_restricted_count(const char *path, int flags, void *data)
{
struct counter *c = data;
int fd;
c->open_func_count++;
fd = open(path, flags);
return fd < 0 ? -errno : fd;
}
static void
close_restricted_count(int fd, void *data)
{
struct counter *c = data;
c->close_func_count++;
close(fd);
}
static const struct libinput_interface counting_interface = {
.open_restricted = open_restricted_count,
.close_restricted = close_restricted_count,
};
static int
open_restricted(const char *path, int flags, void *data)
{
int fd = open(path, flags);
return fd < 0 ? -errno : fd;
}
static void
close_restricted(int fd, void *data)
{
close(fd);
}
static const struct libinput_interface simple_interface = {
.open_restricted = open_restricted,
.close_restricted = close_restricted,
};
START_TEST(path_create_NULL)
{
struct libinput *li;
struct counter counter;
counter.open_func_count = 0;
counter.close_func_count = 0;
li = libinput_path_create_context(NULL, NULL);
ck_assert(li == NULL);
li = libinput_path_create_context(&counting_interface, &counter);
ck_assert(li != NULL);
libinput_unref(li);
ck_assert_int_eq(counter.open_func_count, 0);
ck_assert_int_eq(counter.close_func_count, 0);
}
END_TEST
START_TEST(path_create_invalid)
{
struct libinput *li;
struct libinput_device *device;
const char *path = "/tmp";
struct counter counter;
counter.open_func_count = 0;
counter.close_func_count = 0;
li = libinput_path_create_context(&counting_interface, &counter);
ck_assert(li != NULL);
litest_disable_log_handler(li);
device = libinput_path_add_device(li, path);
ck_assert(device == NULL);
ck_assert_int_eq(counter.open_func_count, 0);
ck_assert_int_eq(counter.close_func_count, 0);
litest_restore_log_handler(li);
libinput_unref(li);
ck_assert_int_eq(counter.close_func_count, 0);
}
END_TEST
START_TEST(path_create_invalid_kerneldev)
{
struct libinput *li;
struct libinput_device *device;
const char *path = "/dev/uinput";
struct counter counter;
counter.open_func_count = 0;
counter.close_func_count = 0;
li = libinput_path_create_context(&counting_interface, &counter);
ck_assert(li != NULL);
litest_disable_log_handler(li);
device = libinput_path_add_device(li, path);
ck_assert(device == NULL);
ck_assert_int_eq(counter.open_func_count, 1);
ck_assert_int_eq(counter.close_func_count, 1);
litest_restore_log_handler(li);
libinput_unref(li);
ck_assert_int_eq(counter.close_func_count, 1);
}
END_TEST
START_TEST(path_create_invalid_file)
{
struct libinput *li;
struct libinput_device *device;
char path[] = "/tmp/litest_path_XXXXXX";
int fd;
struct counter counter;
umask(002);
fd = mkstemp(path);
ck_assert_int_ge(fd, 0);
close(fd);
counter.open_func_count = 0;
counter.close_func_count = 0;
li = libinput_path_create_context(&counting_interface, &counter);
unlink(path);
litest_disable_log_handler(li);
ck_assert(li != NULL);
device = libinput_path_add_device(li, path);
ck_assert(device == NULL);
ck_assert_int_eq(counter.open_func_count, 0);
ck_assert_int_eq(counter.close_func_count, 0);
litest_restore_log_handler(li);
libinput_unref(li);
ck_assert_int_eq(counter.close_func_count, 0);
}
END_TEST
START_TEST(path_create_destroy)
{
struct libinput *li;
struct libinput_device *device;
struct libevdev_uinput *uinput;
struct counter counter;
counter.open_func_count = 0;
counter.close_func_count = 0;
uinput = litest_create_uinput_device("test device", NULL,
EV_KEY, BTN_LEFT,
EV_KEY, BTN_RIGHT,
EV_REL, REL_X,
EV_REL, REL_Y,
-1);
li = libinput_path_create_context(&counting_interface, &counter);
ck_assert(li != NULL);
litest_disable_log_handler(li);
ck_assert(libinput_get_user_data(li) == &counter);
device = libinput_path_add_device(li,
libevdev_uinput_get_devnode(uinput));
ck_assert(device != NULL);
ck_assert_int_eq(counter.open_func_count, 1);
libevdev_uinput_destroy(uinput);
libinput_unref(li);
ck_assert_int_eq(counter.close_func_count, 1);
}
END_TEST
START_TEST(path_force_destroy)
{
struct litest_device *dev = litest_current_device();
struct libinput *li;
struct libinput_device *device;
li = libinput_path_create_context(&simple_interface, NULL);
ck_assert_notnull(li);
libinput_ref(li);
device = libinput_path_add_device(li,
libevdev_uinput_get_devnode(dev->uinput));
ck_assert_notnull(device);
while (libinput_unref(li) != NULL)
;
}
END_TEST
START_TEST(path_set_user_data)
{
struct libinput *li;
int data1, data2;
li = libinput_path_create_context(&simple_interface, &data1);
ck_assert(li != NULL);
ck_assert(libinput_get_user_data(li) == &data1);
libinput_set_user_data(li, &data2);
ck_assert(libinput_get_user_data(li) == &data2);
libinput_unref(li);
}
END_TEST
START_TEST(path_added_seat)
{
struct litest_device *dev = litest_current_device();
struct libinput *li = dev->libinput;
struct libinput_event *event;
struct libinput_device *device;
struct libinput_seat *seat;
const char *seat_name;
enum libinput_event_type type;
libinput_dispatch(li);
event = libinput_get_event(li);
ck_assert(event != NULL);
type = libinput_event_get_type(event);
ck_assert_int_eq(type, LIBINPUT_EVENT_DEVICE_ADDED);
device = libinput_event_get_device(event);
seat = libinput_device_get_seat(device);
ck_assert(seat != NULL);
seat_name = libinput_seat_get_logical_name(seat);
ck_assert_str_eq(seat_name, "default");
libinput_event_destroy(event);
}
END_TEST
START_TEST(path_seat_change)
{
struct litest_device *dev = litest_current_device();
struct libinput *li = dev->libinput;
struct libinput_event *event;
struct libinput_device *device;
struct libinput_seat *seat1, *seat2;
const char *seat1_name;
const char *seat2_name = "new seat";
int rc;
libinput_dispatch(li);
event = libinput_get_event(li);
ck_assert_int_eq(libinput_event_get_type(event),
LIBINPUT_EVENT_DEVICE_ADDED);
device = libinput_event_get_device(event);
libinput_device_ref(device);
seat1 = libinput_device_get_seat(device);
libinput_seat_ref(seat1);
seat1_name = libinput_seat_get_logical_name(seat1);
libinput_event_destroy(event);
litest_drain_events(li);
rc = libinput_device_set_seat_logical_name(device,
seat2_name);
ck_assert_int_eq(rc, 0);
libinput_dispatch(li);
event = libinput_get_event(li);
ck_assert(event != NULL);
ck_assert_int_eq(libinput_event_get_type(event),
LIBINPUT_EVENT_DEVICE_REMOVED);
ck_assert(libinput_event_get_device(event) == device);
libinput_event_destroy(event);
event = libinput_get_event(li);
ck_assert(event != NULL);
ck_assert_int_eq(libinput_event_get_type(event),
LIBINPUT_EVENT_DEVICE_ADDED);
ck_assert(libinput_event_get_device(event) != device);
libinput_device_unref(device);
device = libinput_event_get_device(event);
seat2 = libinput_device_get_seat(device);
ck_assert_str_ne(libinput_seat_get_logical_name(seat2),
seat1_name);
ck_assert_str_eq(libinput_seat_get_logical_name(seat2),
seat2_name);
libinput_event_destroy(event);
libinput_seat_unref(seat1);
/* litest: swap the new device in, so cleanup works */
libinput_device_unref(dev->libinput_device);
libinput_device_ref(device);
dev->libinput_device = device;
}
END_TEST
START_TEST(path_added_device)
{
struct litest_device *dev = litest_current_device();
struct libinput *li = dev->libinput;
struct libinput_event *event;
struct libinput_device *device;
enum libinput_event_type type;
libinput_dispatch(li);
event = libinput_get_event(li);
ck_assert_notnull(event);
type = libinput_event_get_type(event);
ck_assert_int_eq(type, LIBINPUT_EVENT_DEVICE_ADDED);
device = libinput_event_get_device(event);
ck_assert_notnull(device);
libinput_event_destroy(event);
}
END_TEST
START_TEST(path_add_device)
{
struct litest_device *dev = litest_current_device();
struct libinput *li = dev->libinput;
struct libinput_event *event;
struct libinput_device *device;
char *sysname1 = NULL, *sysname2 = NULL;
enum libinput_event_type type;
libinput_dispatch(li);
event = libinput_get_event(li);
ck_assert_notnull(event);
type = libinput_event_get_type(event);
ck_assert_int_eq(type, LIBINPUT_EVENT_DEVICE_ADDED);
device = libinput_event_get_device(event);
ck_assert_notnull(device);
sysname1 = safe_strdup(libinput_device_get_sysname(device));
libinput_event_destroy(event);
litest_assert_empty_queue(li);
device = libinput_path_add_device(li,
libevdev_uinput_get_devnode(dev->uinput));
ck_assert(device != NULL);
libinput_dispatch(li);
event = libinput_get_event(li);
ck_assert_notnull(event);
type = libinput_event_get_type(event);
ck_assert_int_eq(type, LIBINPUT_EVENT_DEVICE_ADDED);
device = libinput_event_get_device(event);
ck_assert_notnull(device);
sysname2 = safe_strdup(libinput_device_get_sysname(device));
libinput_event_destroy(event);
ck_assert_str_eq(sysname1, sysname2);
free(sysname1);
free(sysname2);
}
END_TEST
START_TEST(path_add_invalid_path)
{
struct libinput *li;
struct libinput_event *event;
struct libinput_device *device;
li = litest_create_context();
litest_disable_log_handler(li);
device = libinput_path_add_device(li, "/tmp/");
litest_restore_log_handler(li);
ck_assert(device == NULL);
libinput_dispatch(li);
while ((event = libinput_get_event(li)))
ck_abort();
libinput_unref(li);
}
END_TEST
START_TEST(path_device_sysname)
{
struct litest_device *dev = litest_current_device();
struct libinput_event *ev;
struct libinput_device *device;
const char *sysname;
enum libinput_event_type type;
libinput_dispatch(dev->libinput);
ev = libinput_get_event(dev->libinput);
ck_assert_notnull(ev);
type = libinput_event_get_type(ev);
ck_assert_int_eq(type, LIBINPUT_EVENT_DEVICE_ADDED);
device = libinput_event_get_device(ev);
ck_assert_notnull(device);
sysname = libinput_device_get_sysname(device);
ck_assert(sysname != NULL && strlen(sysname) > 1);
ck_assert(strchr(sysname, '/') == NULL);
ck_assert_int_eq(strncmp(sysname, "event", 5), 0);
libinput_event_destroy(ev);
}
END_TEST
START_TEST(path_remove_device)
{
struct litest_device *dev = litest_current_device();
struct libinput *li = dev->libinput;
struct libinput_event *event;
struct libinput_device *device;
int remove_event = 0;
device = libinput_path_add_device(li,
libevdev_uinput_get_devnode(dev->uinput));
ck_assert(device != NULL);
litest_drain_events(li);
libinput_path_remove_device(device);
libinput_dispatch(li);
while ((event = libinput_get_event(li))) {
enum libinput_event_type type;
type = libinput_event_get_type(event);
if (type == LIBINPUT_EVENT_DEVICE_REMOVED)
remove_event++;
libinput_event_destroy(event);
}
ck_assert_int_eq(remove_event, 1);
}
END_TEST
START_TEST(path_double_remove_device)
{
struct litest_device *dev = litest_current_device();
struct libinput *li = dev->libinput;
struct libinput_event *event;
struct libinput_device *device;
int remove_event = 0;
device = libinput_path_add_device(li,
libevdev_uinput_get_devnode(dev->uinput));
ck_assert(device != NULL);
litest_drain_events(li);
libinput_path_remove_device(device);
libinput_path_remove_device(device);
libinput_dispatch(li);
while ((event = libinput_get_event(li))) {
enum libinput_event_type type;
type = libinput_event_get_type(event);
if (type == LIBINPUT_EVENT_DEVICE_REMOVED)
remove_event++;
libinput_event_destroy(event);
}
ck_assert_int_eq(remove_event, 1);
}
END_TEST
START_TEST(path_suspend)
{
struct libinput *li;
struct libinput_device *device;
struct libevdev_uinput *uinput;
int rc;
void *userdata = &rc;
uinput = litest_create_uinput_device("test device", NULL,
EV_KEY, BTN_LEFT,
EV_KEY, BTN_RIGHT,
EV_REL, REL_X,
EV_REL, REL_Y,
-1);
li = libinput_path_create_context(&simple_interface, userdata);
ck_assert(li != NULL);
device = libinput_path_add_device(li,
libevdev_uinput_get_devnode(uinput));
ck_assert(device != NULL);
libinput_suspend(li);
libinput_resume(li);
libevdev_uinput_destroy(uinput);
libinput_unref(li);
}
END_TEST
START_TEST(path_double_suspend)
{
struct libinput *li;
struct libinput_device *device;
struct libevdev_uinput *uinput;
int rc;
void *userdata = &rc;
uinput = litest_create_uinput_device("test device", NULL,
EV_KEY, BTN_LEFT,
EV_KEY, BTN_RIGHT,
EV_REL, REL_X,
EV_REL, REL_Y,
-1);
li = libinput_path_create_context(&simple_interface, userdata);
ck_assert(li != NULL);
device = libinput_path_add_device(li,
libevdev_uinput_get_devnode(uinput));
ck_assert(device != NULL);
libinput_suspend(li);
libinput_suspend(li);
libinput_resume(li);
libevdev_uinput_destroy(uinput);
libinput_unref(li);
}
END_TEST
START_TEST(path_double_resume)
{
struct libinput *li;
struct libinput_device *device;
struct libevdev_uinput *uinput;
int rc;
void *userdata = &rc;
uinput = litest_create_uinput_device("test device", NULL,
EV_KEY, BTN_LEFT,
EV_KEY, BTN_RIGHT,
EV_REL, REL_X,
EV_REL, REL_Y,
-1);
li = libinput_path_create_context(&simple_interface, userdata);
ck_assert(li != NULL);
device = libinput_path_add_device(li,
libevdev_uinput_get_devnode(uinput));
ck_assert(device != NULL);
libinput_suspend(li);
libinput_resume(li);
libinput_resume(li);
libevdev_uinput_destroy(uinput);
libinput_unref(li);
}
END_TEST
START_TEST(path_add_device_suspend_resume)
{
struct libinput *li;
struct libinput_device *device;
struct libinput_event *event;
struct libevdev_uinput *uinput1, *uinput2;
int rc;
int nevents;
void *userdata = &rc;
uinput1 = litest_create_uinput_device("test device", NULL,
EV_KEY, BTN_LEFT,
EV_KEY, BTN_RIGHT,
EV_REL, REL_X,
EV_REL, REL_Y,
-1);
uinput2 = litest_create_uinput_device("test device 2", NULL,
EV_KEY, BTN_LEFT,
EV_KEY, BTN_RIGHT,
EV_REL, REL_X,
EV_REL, REL_Y,
-1);
li = libinput_path_create_context(&simple_interface, userdata);
ck_assert(li != NULL);
device = libinput_path_add_device(li,
libevdev_uinput_get_devnode(uinput1));
ck_assert(device != NULL);
libinput_path_add_device(li, libevdev_uinput_get_devnode(uinput2));
libinput_dispatch(li);
nevents = 0;
while ((event = libinput_get_event(li))) {
enum libinput_event_type type;
type = libinput_event_get_type(event);
ck_assert_int_eq(type, LIBINPUT_EVENT_DEVICE_ADDED);
libinput_event_destroy(event);
nevents++;
}
ck_assert_int_eq(nevents, 2);
libinput_suspend(li);
libinput_dispatch(li);
nevents = 0;
while ((event = libinput_get_event(li))) {
enum libinput_event_type type;
type = libinput_event_get_type(event);
ck_assert_int_eq(type, LIBINPUT_EVENT_DEVICE_REMOVED);
libinput_event_destroy(event);
nevents++;
}
ck_assert_int_eq(nevents, 2);
libinput_resume(li);
libinput_dispatch(li);
nevents = 0;
while ((event = libinput_get_event(li))) {
enum libinput_event_type type;
type = libinput_event_get_type(event);
ck_assert_int_eq(type, LIBINPUT_EVENT_DEVICE_ADDED);
libinput_event_destroy(event);
nevents++;
}
ck_assert_int_eq(nevents, 2);
libevdev_uinput_destroy(uinput1);
libevdev_uinput_destroy(uinput2);
libinput_unref(li);
}
END_TEST
START_TEST(path_add_device_suspend_resume_fail)
{
struct libinput *li;
struct libinput_device *device;
struct libinput_event *event;
struct libevdev_uinput *uinput1, *uinput2;
int rc;
int nevents;
void *userdata = &rc;
uinput1 = litest_create_uinput_device("test device", NULL,
EV_KEY, BTN_LEFT,
EV_KEY, BTN_RIGHT,
EV_REL, REL_X,
EV_REL, REL_Y,
-1);
uinput2 = litest_create_uinput_device("test device 2", NULL,
EV_KEY, BTN_LEFT,
EV_KEY, BTN_RIGHT,
EV_REL, REL_X,
EV_REL, REL_Y,
-1);
li = libinput_path_create_context(&simple_interface, userdata);
ck_assert(li != NULL);
device = libinput_path_add_device(li,
libevdev_uinput_get_devnode(uinput1));
ck_assert(device != NULL);
device = libinput_path_add_device(li,
libevdev_uinput_get_devnode(uinput2));
ck_assert(device != NULL);
libinput_dispatch(li);
nevents = 0;
while ((event = libinput_get_event(li))) {
enum libinput_event_type type;
type = libinput_event_get_type(event);
ck_assert_int_eq(type, LIBINPUT_EVENT_DEVICE_ADDED);
libinput_event_destroy(event);
nevents++;
}
ck_assert_int_eq(nevents, 2);
libinput_suspend(li);
libinput_dispatch(li);
nevents = 0;
while ((event = libinput_get_event(li))) {
enum libinput_event_type type;
type = libinput_event_get_type(event);
ck_assert_int_eq(type, LIBINPUT_EVENT_DEVICE_REMOVED);
libinput_event_destroy(event);
nevents++;
}
ck_assert_int_eq(nevents, 2);
/* now drop one of the devices */
libevdev_uinput_destroy(uinput1);
rc = libinput_resume(li);
ck_assert_int_eq(rc, -1);
libinput_dispatch(li);
nevents = 0;
while ((event = libinput_get_event(li))) {
enum libinput_event_type type;
type = libinput_event_get_type(event);
/* We expect one device being added, second one fails,
* causing a removed event for the first one */
if (type != LIBINPUT_EVENT_DEVICE_ADDED &&
type != LIBINPUT_EVENT_DEVICE_REMOVED)
ck_abort();
libinput_event_destroy(event);
nevents++;
}
ck_assert_int_eq(nevents, 2);
libevdev_uinput_destroy(uinput2);
libinput_unref(li);
}
END_TEST
START_TEST(path_add_device_suspend_resume_remove_device)
{
struct libinput *li;
struct libinput_device *device;
struct libinput_event *event;
struct libevdev_uinput *uinput1, *uinput2;
int rc;
int nevents;
void *userdata = &rc;
uinput1 = litest_create_uinput_device("test device", NULL,
EV_KEY, BTN_LEFT,
EV_KEY, BTN_RIGHT,
EV_REL, REL_X,
EV_REL, REL_Y,
-1);
uinput2 = litest_create_uinput_device("test device 2", NULL,
EV_KEY, BTN_LEFT,
EV_KEY, BTN_RIGHT,
EV_REL, REL_X,
EV_REL, REL_Y,
-1);
li = libinput_path_create_context(&simple_interface, userdata);
ck_assert(li != NULL);
device = libinput_path_add_device(li,
libevdev_uinput_get_devnode(uinput1));
ck_assert(device != NULL);
device = libinput_path_add_device(li,
libevdev_uinput_get_devnode(uinput2));
libinput_device_ref(device);
libinput_dispatch(li);
nevents = 0;
while ((event = libinput_get_event(li))) {
enum libinput_event_type type;
type = libinput_event_get_type(event);
ck_assert_int_eq(type, LIBINPUT_EVENT_DEVICE_ADDED);
libinput_event_destroy(event);
nevents++;
}
ck_assert_int_eq(nevents, 2);
libinput_suspend(li);
libinput_dispatch(li);
nevents = 0;
while ((event = libinput_get_event(li))) {
enum libinput_event_type type;
type = libinput_event_get_type(event);
ck_assert_int_eq(type, LIBINPUT_EVENT_DEVICE_REMOVED);
libinput_event_destroy(event);
nevents++;
}
ck_assert_int_eq(nevents, 2);
/* now drop and remove one of the devices */
libevdev_uinput_destroy(uinput2);
libinput_path_remove_device(device);
libinput_device_unref(device);
rc = libinput_resume(li);
ck_assert_int_eq(rc, 0);
libinput_dispatch(li);
nevents = 0;
while ((event = libinput_get_event(li))) {
enum libinput_event_type type;
type = libinput_event_get_type(event);
ck_assert_int_eq(type, LIBINPUT_EVENT_DEVICE_ADDED);
libinput_event_destroy(event);
nevents++;
}
ck_assert_int_eq(nevents, 1);
libevdev_uinput_destroy(uinput1);
libinput_unref(li);
}
END_TEST
START_TEST(path_seat_recycle)
{
struct libinput *li;
struct libevdev_uinput *uinput;
int rc;
void *userdata = &rc;
struct libinput_event *ev;
struct libinput_device *device;
struct libinput_seat *saved_seat = NULL;
struct libinput_seat *seat;
int data = 0;
int found = 0;
void *user_data;
enum libinput_event_type type;
uinput = litest_create_uinput_device("test device", NULL,
EV_KEY, BTN_LEFT,
EV_KEY, BTN_RIGHT,
EV_REL, REL_X,
EV_REL, REL_Y,
-1);
li = libinput_path_create_context(&simple_interface, userdata);
ck_assert(li != NULL);
device = libinput_path_add_device(li,
libevdev_uinput_get_devnode(uinput));
ck_assert(device != NULL);
libinput_dispatch(li);
ev = libinput_get_event(li);
ck_assert_notnull(ev);
type = libinput_event_get_type(ev);
ck_assert_int_eq(type, LIBINPUT_EVENT_DEVICE_ADDED);
device = libinput_event_get_device(ev);
ck_assert(device != NULL);
saved_seat = libinput_device_get_seat(device);
libinput_seat_set_user_data(saved_seat, &data);
libinput_seat_ref(saved_seat);
libinput_event_destroy(ev);
ck_assert(saved_seat != NULL);
litest_assert_empty_queue(li);
libinput_suspend(li);
litest_drain_events(li);
libinput_resume(li);
libinput_dispatch(li);
ev = libinput_get_event(li);
ck_assert_notnull(ev);
type = libinput_event_get_type(ev);
ck_assert_int_eq(type, LIBINPUT_EVENT_DEVICE_ADDED);
device = libinput_event_get_device(ev);
ck_assert(device != NULL);
seat = libinput_device_get_seat(device);
user_data = libinput_seat_get_user_data(seat);
if (user_data == &data) {
found = 1;
ck_assert(seat == saved_seat);
}
libinput_event_destroy(ev);
ck_assert(found == 1);
libinput_unref(li);
libevdev_uinput_destroy(uinput);
}
END_TEST
START_TEST(path_udev_assign_seat)
{
struct litest_device *dev = litest_current_device();
struct libinput *li = dev->libinput;
int rc;
litest_set_log_handler_bug(li);
rc = libinput_udev_assign_seat(li, "foo");
ck_assert_int_eq(rc, -1);
litest_restore_log_handler(li);
}
END_TEST
START_TEST(path_ignore_device)
{
struct litest_device *dev;
struct libinput *li;
struct libinput_device *device;
const char *path;
dev = litest_create(LITEST_IGNORED_MOUSE, NULL, NULL, NULL, NULL);
path = libevdev_uinput_get_devnode(dev->uinput);
ck_assert_notnull(path);
li = litest_create_context();
device = libinput_path_add_device(li, path);
ck_assert(device == NULL);
libinput_unref(li);
litest_delete_device(dev);
}
END_TEST
TEST_COLLECTION(path)
{
litest_add_no_device("path:create", path_create_NULL);
litest_add_no_device("path:create", path_create_invalid);
litest_add_no_device("path:create", path_create_invalid_file);
litest_add_no_device("path:create", path_create_invalid_kerneldev);
litest_add_no_device("path:create", path_create_destroy);
litest_add("path:create", path_force_destroy, LITEST_ANY, LITEST_ANY);
litest_add_no_device("path:create", path_set_user_data);
litest_add_no_device("path:suspend", path_suspend);
litest_add_no_device("path:suspend", path_double_suspend);
litest_add_no_device("path:suspend", path_double_resume);
litest_add_no_device("path:suspend", path_add_device_suspend_resume);
litest_add_no_device("path:suspend", path_add_device_suspend_resume_fail);
litest_add_no_device("path:suspend", path_add_device_suspend_resume_remove_device);
litest_add_for_device("path:seat", path_added_seat, LITEST_SYNAPTICS_CLICKPAD_X220);
litest_add_for_device("path:seat", path_seat_change, LITEST_SYNAPTICS_CLICKPAD_X220);
litest_add("path:device events", path_added_device, LITEST_ANY, LITEST_ANY);
litest_add("path:device events", path_device_sysname, LITEST_ANY, LITEST_ANY);
litest_add_for_device("path:device events", path_add_device, LITEST_SYNAPTICS_CLICKPAD_X220);
litest_add_no_device("path:device events", path_add_invalid_path);
litest_add_for_device("path:device events", path_remove_device, LITEST_SYNAPTICS_CLICKPAD_X220);
litest_add_for_device("path:device events", path_double_remove_device, LITEST_SYNAPTICS_CLICKPAD_X220);
litest_add_no_device("path:seat", path_seat_recycle);
litest_add_for_device("path:udev", path_udev_assign_seat, LITEST_SYNAPTICS_CLICKPAD_X220);
litest_add_no_device("path:ignore", path_ignore_device);
}
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